RU2011111440A - MIXED OXIDE FUEL ASSEMBLY - Google Patents

Abstract

 1. A fuel assembly of nuclear fuel containing an exploded array of a plurality of fuel rods, at least some of which contain! an elongated tubular casing, which extends to a predetermined length in the axial direction between the first end and the second end,! first end cap to seal the first end of the tubular sheath! the second end cap, hermetically sealing the second end of the tubular shell, and! sequentially placed mixed oxide fuel tablets laid in and over the first length of the tubular shell, wherein at least substantially all of the mixed oxide fuel tablets have an annular solid space through which the axis of the tubular shell passes, the first length being shorter selected length, forming a plenum where gaseous fission products can be collected. ! 2. The fuel assembly of claim 1, wherein all mixed oxide fuel pellets have an annular space through which the axis of the tubular shell passes. ! 3. The fuel assembly of claim 1, wherein the annular space has a diameter of from about 1 mm to 4 mm. ! 4. The fuel assembly of claim 3, wherein the annular space has a diameter of about 2 to 4 mm. ! 5. The fuel assembly according to claim 1, in which the plenum is adjacent to the first end cap. ! 6. The fuel assembly according to claim 5, including a second plenum adjacent to the second end cap. ! 7. The fuel assembly according to claim 1 without any burnable absorber. ! 8. The fuel assembly according to claim 1, in which an exploded array of the whole

Claims (19)

1. A fuel assembly of nuclear fuel containing a spaced array of a plurality of fuel rods, at least some of which contain an elongated tubular shell, which extends to a predetermined length in the axial direction between the first end and the second end, the first end cap, hermetically sealing the first end of the tubular shell, a second end cap, hermetically sealing the second end of the tubular shell, and sequentially placed mixed oxide fuel tablets laid in and over the first length of the tubular shell, wherein at least substantially all of the mixed oxide fuel tablets have an annular solid space through which the axis of the tubular shell passes, the first length being shorter selected length, forming a plenum where gaseous fission products can be collected. 2. The fuel assembly of claim 1, wherein all the mixed oxide fuel tablets have an annular space through which the axis of the tubular shell passes. 3. The fuel assembly of claim 1, wherein the annular space has a diameter of from about 1 mm to 4 mm. 4. The fuel assembly of claim 3, wherein the annular space has a diameter of about 2 to 4 mm. 5. The fuel assembly according to claim 1, in which the plenum is adjacent to the first end cap. 6. The fuel assembly according to claim 5, including a second plenum adjacent to the second end cap. 7. The fuel assembly according to claim 1 without any burnable absorber. 8. The fuel assembly according to claim 1, in which the spaced array of the fuel rods is located in the zone structure of radial enrichment, where the weight percent of the enrichment of the fuel rods decreases with radial movement from the center of the fuel assembly from zone to zone. 9. The fuel assembly of claim 8, in which the zone structure of the radial enrichment has at least three zones. 10. The fuel assembly of claim 9, wherein the weight percent enrichment is about 1.00 for the central zone, about 0.65 for the intermediate zone, and about 0.45 for the outer peripheral zone. 11. The fuel assembly according to claim 9, containing a square array of 17 × 17 fuel rods, in which the Central zone has approximately 72 fuel rods, the intermediate zone has approximately 128 fuel rods, and the outer peripheral zone has approximately 64 fuel rods. 12. The fuel assembly according to claim 9, in which the outer peripheral zone consists of an outer peripheral layer of fuel rods located around the perimeter of the fuel assembly. 13. The fuel assembly according to claim 9, in which the three radial zones comprise a central zone (cz), an intermediate zone (iz) and an outer zone (oz) located around a combination of guide tubes (GT) and tool tube (IT) according to the following scheme :

Relative weight percent fissile Pu Number of rods cz 72 iz 128 oz 64 14. The core of nuclear fuel containing an elongated tubular shell, which extends to a predetermined length in the axial direction between the first end and the second end, the first end cap, hermetically sealing the first end of the tubular shell, a second end cap, hermetically sealing the second end of the tubular shell, and sequentially placed mixed oxide fuel tablets laid in and over the first length of the tubular shell, wherein at least substantially all of the mixed oxide fuel tablets have an annular solid space through which the axis of the tubular shell passes, the first length being shorter selected length, forming a plenum where gaseous fission products can be collected. 15. The core of nuclear fuel according to 14, in which all tablets of mixed oxide fuel have an annular space through which the axis of the tubular shell passes. 16. The core of nuclear fuel according to 14, in which the annular space has a diameter of from about 1 mm to 4 mm 17. The nuclear fuel rod according to clause 16, in which the annular space has a diameter of from about 2 to 4 mm 18. The core of nuclear fuel according to 14, in which the plenum is adjacent to the first end cap. 19. The nuclear fuel rod according to claim 18, comprising a second plenum adjacent to the second end cap.